remotefilelog: add a developer option to wait for background processes
In order to block the main command on the subprocess exiting, we ensure the
repo's ui object will call the subprocess.wait() method to ensure the top-level
hg process doesn't exit until all background processes have also done so.
Currently, in the tests, most operation spawning background process as followed
by commands waiting for these operations to complete. However this waiting is
racy. First because it seems like we can start waiting before the background
operation actually start, in which case it is prematurely detected as "done".
Second, because some commands may spawn multiple background operation for the
same operation (eg: rebase can apparently trigger multiple prefetch). The
current approach could be updated to maybe handle the first issue, but the
second one will never be properly handled.
In most case, we do not care that the bg process keep running after the command
end. (Since we explicitly wait for them to end before doing anything else). So
we add an option to wait on the background process before exiting the command.
We'll put it in use in the next changeset.
Differential Revision: https://phab.mercurial-scm.org/D7585
from __future__ import absolute_import
import os
import time
from mercurial.i18n import _
from mercurial.node import (
nullid,
short,
)
from mercurial import (
encoding,
error,
lock as lockmod,
mdiff,
policy,
pycompat,
scmutil,
util,
vfs,
)
from mercurial.utils import procutil
from . import (
constants,
contentstore,
datapack,
historypack,
metadatastore,
shallowutil,
)
osutil = policy.importmod(r'osutil')
class RepackAlreadyRunning(error.Abort):
pass
def backgroundrepack(
repo, incremental=True, packsonly=False, ensurestart=False
):
cmd = [procutil.hgexecutable(), b'-R', repo.origroot, b'repack']
msg = _(b"(running background repack)\n")
if incremental:
cmd.append(b'--incremental')
msg = _(b"(running background incremental repack)\n")
if packsonly:
cmd.append(b'--packsonly')
repo.ui.warn(msg)
# We know this command will find a binary, so don't block on it starting.
kwargs = {}
if repo.ui.configbool(b'devel', b'remotefilelog.bg-wait'):
kwargs['record_wait'] = repo.ui.atexit
procutil.runbgcommand(
cmd, encoding.environ, ensurestart=ensurestart, **kwargs
)
def fullrepack(repo, options=None):
"""If ``packsonly`` is True, stores creating only loose objects are skipped.
"""
if util.safehasattr(repo, 'shareddatastores'):
datasource = contentstore.unioncontentstore(*repo.shareddatastores)
historysource = metadatastore.unionmetadatastore(
*repo.sharedhistorystores, allowincomplete=True
)
packpath = shallowutil.getcachepackpath(
repo, constants.FILEPACK_CATEGORY
)
_runrepack(
repo,
datasource,
historysource,
packpath,
constants.FILEPACK_CATEGORY,
options=options,
)
if util.safehasattr(repo.manifestlog, 'datastore'):
localdata, shareddata = _getmanifeststores(repo)
lpackpath, ldstores, lhstores = localdata
spackpath, sdstores, shstores = shareddata
# Repack the shared manifest store
datasource = contentstore.unioncontentstore(*sdstores)
historysource = metadatastore.unionmetadatastore(
*shstores, allowincomplete=True
)
_runrepack(
repo,
datasource,
historysource,
spackpath,
constants.TREEPACK_CATEGORY,
options=options,
)
# Repack the local manifest store
datasource = contentstore.unioncontentstore(
*ldstores, allowincomplete=True
)
historysource = metadatastore.unionmetadatastore(
*lhstores, allowincomplete=True
)
_runrepack(
repo,
datasource,
historysource,
lpackpath,
constants.TREEPACK_CATEGORY,
options=options,
)
def incrementalrepack(repo, options=None):
"""This repacks the repo by looking at the distribution of pack files in the
repo and performing the most minimal repack to keep the repo in good shape.
"""
if util.safehasattr(repo, 'shareddatastores'):
packpath = shallowutil.getcachepackpath(
repo, constants.FILEPACK_CATEGORY
)
_incrementalrepack(
repo,
repo.shareddatastores,
repo.sharedhistorystores,
packpath,
constants.FILEPACK_CATEGORY,
options=options,
)
if util.safehasattr(repo.manifestlog, 'datastore'):
localdata, shareddata = _getmanifeststores(repo)
lpackpath, ldstores, lhstores = localdata
spackpath, sdstores, shstores = shareddata
# Repack the shared manifest store
_incrementalrepack(
repo,
sdstores,
shstores,
spackpath,
constants.TREEPACK_CATEGORY,
options=options,
)
# Repack the local manifest store
_incrementalrepack(
repo,
ldstores,
lhstores,
lpackpath,
constants.TREEPACK_CATEGORY,
allowincompletedata=True,
options=options,
)
def _getmanifeststores(repo):
shareddatastores = repo.manifestlog.shareddatastores
localdatastores = repo.manifestlog.localdatastores
sharedhistorystores = repo.manifestlog.sharedhistorystores
localhistorystores = repo.manifestlog.localhistorystores
sharedpackpath = shallowutil.getcachepackpath(
repo, constants.TREEPACK_CATEGORY
)
localpackpath = shallowutil.getlocalpackpath(
repo.svfs.vfs.base, constants.TREEPACK_CATEGORY
)
return (
(localpackpath, localdatastores, localhistorystores),
(sharedpackpath, shareddatastores, sharedhistorystores),
)
def _topacks(packpath, files, constructor):
paths = list(os.path.join(packpath, p) for p in files)
packs = list(constructor(p) for p in paths)
return packs
def _deletebigpacks(repo, folder, files):
"""Deletes packfiles that are bigger than ``packs.maxpacksize``.
Returns ``files` with the removed files omitted."""
maxsize = repo.ui.configbytes(b"packs", b"maxpacksize")
if maxsize <= 0:
return files
# This only considers datapacks today, but we could broaden it to include
# historypacks.
VALIDEXTS = [b".datapack", b".dataidx"]
# Either an oversize index or datapack will trigger cleanup of the whole
# pack:
oversized = {
os.path.splitext(path)[0]
for path, ftype, stat in files
if (stat.st_size > maxsize and (os.path.splitext(path)[1] in VALIDEXTS))
}
for rootfname in oversized:
rootpath = os.path.join(folder, rootfname)
for ext in VALIDEXTS:
path = rootpath + ext
repo.ui.debug(
b'removing oversize packfile %s (%s)\n'
% (path, util.bytecount(os.stat(path).st_size))
)
os.unlink(path)
return [row for row in files if os.path.basename(row[0]) not in oversized]
def _incrementalrepack(
repo,
datastore,
historystore,
packpath,
category,
allowincompletedata=False,
options=None,
):
shallowutil.mkstickygroupdir(repo.ui, packpath)
files = osutil.listdir(packpath, stat=True)
files = _deletebigpacks(repo, packpath, files)
datapacks = _topacks(
packpath, _computeincrementaldatapack(repo.ui, files), datapack.datapack
)
datapacks.extend(
s for s in datastore if not isinstance(s, datapack.datapackstore)
)
historypacks = _topacks(
packpath,
_computeincrementalhistorypack(repo.ui, files),
historypack.historypack,
)
historypacks.extend(
s
for s in historystore
if not isinstance(s, historypack.historypackstore)
)
# ``allhistory{files,packs}`` contains all known history packs, even ones we
# don't plan to repack. They are used during the datapack repack to ensure
# good ordering of nodes.
allhistoryfiles = _allpackfileswithsuffix(
files, historypack.PACKSUFFIX, historypack.INDEXSUFFIX
)
allhistorypacks = _topacks(
packpath,
(f for f, mode, stat in allhistoryfiles),
historypack.historypack,
)
allhistorypacks.extend(
s
for s in historystore
if not isinstance(s, historypack.historypackstore)
)
_runrepack(
repo,
contentstore.unioncontentstore(
*datapacks, allowincomplete=allowincompletedata
),
metadatastore.unionmetadatastore(*historypacks, allowincomplete=True),
packpath,
category,
fullhistory=metadatastore.unionmetadatastore(
*allhistorypacks, allowincomplete=True
),
options=options,
)
def _computeincrementaldatapack(ui, files):
opts = {
b'gencountlimit': ui.configint(b'remotefilelog', b'data.gencountlimit'),
b'generations': ui.configlist(b'remotefilelog', b'data.generations'),
b'maxrepackpacks': ui.configint(
b'remotefilelog', b'data.maxrepackpacks'
),
b'repackmaxpacksize': ui.configbytes(
b'remotefilelog', b'data.repackmaxpacksize'
),
b'repacksizelimit': ui.configbytes(
b'remotefilelog', b'data.repacksizelimit'
),
}
packfiles = _allpackfileswithsuffix(
files, datapack.PACKSUFFIX, datapack.INDEXSUFFIX
)
return _computeincrementalpack(packfiles, opts)
def _computeincrementalhistorypack(ui, files):
opts = {
b'gencountlimit': ui.configint(
b'remotefilelog', b'history.gencountlimit'
),
b'generations': ui.configlist(
b'remotefilelog', b'history.generations', [b'100MB']
),
b'maxrepackpacks': ui.configint(
b'remotefilelog', b'history.maxrepackpacks'
),
b'repackmaxpacksize': ui.configbytes(
b'remotefilelog', b'history.repackmaxpacksize', b'400MB'
),
b'repacksizelimit': ui.configbytes(
b'remotefilelog', b'history.repacksizelimit'
),
}
packfiles = _allpackfileswithsuffix(
files, historypack.PACKSUFFIX, historypack.INDEXSUFFIX
)
return _computeincrementalpack(packfiles, opts)
def _allpackfileswithsuffix(files, packsuffix, indexsuffix):
result = []
fileset = set(fn for fn, mode, stat in files)
for filename, mode, stat in files:
if not filename.endswith(packsuffix):
continue
prefix = filename[: -len(packsuffix)]
# Don't process a pack if it doesn't have an index.
if (prefix + indexsuffix) not in fileset:
continue
result.append((prefix, mode, stat))
return result
def _computeincrementalpack(files, opts):
"""Given a set of pack files along with the configuration options, this
function computes the list of files that should be packed as part of an
incremental repack.
It tries to strike a balance between keeping incremental repacks cheap (i.e.
packing small things when possible, and rolling the packs up to the big ones
over time).
"""
limits = list(
sorted((util.sizetoint(s) for s in opts[b'generations']), reverse=True)
)
limits.append(0)
# Group the packs by generation (i.e. by size)
generations = []
for i in pycompat.xrange(len(limits)):
generations.append([])
sizes = {}
for prefix, mode, stat in files:
size = stat.st_size
if size > opts[b'repackmaxpacksize']:
continue
sizes[prefix] = size
for i, limit in enumerate(limits):
if size > limit:
generations[i].append(prefix)
break
# Steps for picking what packs to repack:
# 1. Pick the largest generation with > gencountlimit pack files.
# 2. Take the smallest three packs.
# 3. While total-size-of-packs < repacksizelimit: add another pack
# Find the largest generation with more than gencountlimit packs
genpacks = []
for i, limit in enumerate(limits):
if len(generations[i]) > opts[b'gencountlimit']:
# Sort to be smallest last, for easy popping later
genpacks.extend(
sorted(generations[i], reverse=True, key=lambda x: sizes[x])
)
break
# Take as many packs from the generation as we can
chosenpacks = genpacks[-3:]
genpacks = genpacks[:-3]
repacksize = sum(sizes[n] for n in chosenpacks)
while (
repacksize < opts[b'repacksizelimit']
and genpacks
and len(chosenpacks) < opts[b'maxrepackpacks']
):
chosenpacks.append(genpacks.pop())
repacksize += sizes[chosenpacks[-1]]
return chosenpacks
def _runrepack(
repo, data, history, packpath, category, fullhistory=None, options=None
):
shallowutil.mkstickygroupdir(repo.ui, packpath)
def isold(repo, filename, node):
"""Check if the file node is older than a limit.
Unless a limit is specified in the config the default limit is taken.
"""
filectx = repo.filectx(filename, fileid=node)
filetime = repo[filectx.linkrev()].date()
ttl = repo.ui.configint(b'remotefilelog', b'nodettl')
limit = time.time() - ttl
return filetime[0] < limit
garbagecollect = repo.ui.configbool(b'remotefilelog', b'gcrepack')
if not fullhistory:
fullhistory = history
packer = repacker(
repo,
data,
history,
fullhistory,
category,
gc=garbagecollect,
isold=isold,
options=options,
)
with datapack.mutabledatapack(repo.ui, packpath) as dpack:
with historypack.mutablehistorypack(repo.ui, packpath) as hpack:
try:
packer.run(dpack, hpack)
except error.LockHeld:
raise RepackAlreadyRunning(
_(
b"skipping repack - another repack "
b"is already running"
)
)
def keepset(repo, keyfn, lastkeepkeys=None):
"""Computes a keepset which is not garbage collected.
'keyfn' is a function that maps filename, node to a unique key.
'lastkeepkeys' is an optional argument and if provided the keepset
function updates lastkeepkeys with more keys and returns the result.
"""
if not lastkeepkeys:
keepkeys = set()
else:
keepkeys = lastkeepkeys
# We want to keep:
# 1. Working copy parent
# 2. Draft commits
# 3. Parents of draft commits
# 4. Pullprefetch and bgprefetchrevs revsets if specified
revs = [b'.', b'draft()', b'parents(draft())']
prefetchrevs = repo.ui.config(b'remotefilelog', b'pullprefetch', None)
if prefetchrevs:
revs.append(b'(%s)' % prefetchrevs)
prefetchrevs = repo.ui.config(b'remotefilelog', b'bgprefetchrevs', None)
if prefetchrevs:
revs.append(b'(%s)' % prefetchrevs)
revs = b'+'.join(revs)
revs = [b'sort((%s), "topo")' % revs]
keep = scmutil.revrange(repo, revs)
processed = set()
lastmanifest = None
# process the commits in toposorted order starting from the oldest
for r in reversed(keep._list):
if repo[r].p1().rev() in processed:
# if the direct parent has already been processed
# then we only need to process the delta
m = repo[r].manifestctx().readdelta()
else:
# otherwise take the manifest and diff it
# with the previous manifest if one exists
if lastmanifest:
m = repo[r].manifest().diff(lastmanifest)
else:
m = repo[r].manifest()
lastmanifest = repo[r].manifest()
processed.add(r)
# populate keepkeys with keys from the current manifest
if type(m) is dict:
# m is a result of diff of two manifests and is a dictionary that
# maps filename to ((newnode, newflag), (oldnode, oldflag)) tuple
for filename, diff in pycompat.iteritems(m):
if diff[0][0] is not None:
keepkeys.add(keyfn(filename, diff[0][0]))
else:
# m is a manifest object
for filename, filenode in pycompat.iteritems(m):
keepkeys.add(keyfn(filename, filenode))
return keepkeys
class repacker(object):
"""Class for orchestrating the repack of data and history information into a
new format.
"""
def __init__(
self,
repo,
data,
history,
fullhistory,
category,
gc=False,
isold=None,
options=None,
):
self.repo = repo
self.data = data
self.history = history
self.fullhistory = fullhistory
self.unit = constants.getunits(category)
self.garbagecollect = gc
self.options = options
if self.garbagecollect:
if not isold:
raise ValueError(b"Function 'isold' is not properly specified")
# use (filename, node) tuple as a keepset key
self.keepkeys = keepset(repo, lambda f, n: (f, n))
self.isold = isold
def run(self, targetdata, targethistory):
ledger = repackledger()
with lockmod.lock(
repacklockvfs(self.repo), b"repacklock", desc=None, timeout=0
):
self.repo.hook(b'prerepack')
# Populate ledger from source
self.data.markledger(ledger, options=self.options)
self.history.markledger(ledger, options=self.options)
# Run repack
self.repackdata(ledger, targetdata)
self.repackhistory(ledger, targethistory)
# Call cleanup on each source
for source in ledger.sources:
source.cleanup(ledger)
def _chainorphans(self, ui, filename, nodes, orphans, deltabases):
"""Reorderes ``orphans`` into a single chain inside ``nodes`` and
``deltabases``.
We often have orphan entries (nodes without a base that aren't
referenced by other nodes -- i.e., part of a chain) due to gaps in
history. Rather than store them as individual fulltexts, we prefer to
insert them as one chain sorted by size.
"""
if not orphans:
return nodes
def getsize(node, default=0):
meta = self.data.getmeta(filename, node)
if constants.METAKEYSIZE in meta:
return meta[constants.METAKEYSIZE]
else:
return default
# Sort orphans by size; biggest first is preferred, since it's more
# likely to be the newest version assuming files grow over time.
# (Sort by node first to ensure the sort is stable.)
orphans = sorted(orphans)
orphans = list(sorted(orphans, key=getsize, reverse=True))
if ui.debugflag:
ui.debug(
b"%s: orphan chain: %s\n"
% (filename, b", ".join([short(s) for s in orphans]))
)
# Create one contiguous chain and reassign deltabases.
for i, node in enumerate(orphans):
if i == 0:
deltabases[node] = (nullid, 0)
else:
parent = orphans[i - 1]
deltabases[node] = (parent, deltabases[parent][1] + 1)
nodes = [n for n in nodes if n not in orphans]
nodes += orphans
return nodes
def repackdata(self, ledger, target):
ui = self.repo.ui
maxchainlen = ui.configint(b'packs', b'maxchainlen', 1000)
byfile = {}
for entry in pycompat.itervalues(ledger.entries):
if entry.datasource:
byfile.setdefault(entry.filename, {})[entry.node] = entry
count = 0
repackprogress = ui.makeprogress(
_(b"repacking data"), unit=self.unit, total=len(byfile)
)
for filename, entries in sorted(pycompat.iteritems(byfile)):
repackprogress.update(count)
ancestors = {}
nodes = list(node for node in entries)
nohistory = []
buildprogress = ui.makeprogress(
_(b"building history"), unit=b'nodes', total=len(nodes)
)
for i, node in enumerate(nodes):
if node in ancestors:
continue
buildprogress.update(i)
try:
ancestors.update(
self.fullhistory.getancestors(
filename, node, known=ancestors
)
)
except KeyError:
# Since we're packing data entries, we may not have the
# corresponding history entries for them. It's not a big
# deal, but the entries won't be delta'd perfectly.
nohistory.append(node)
buildprogress.complete()
# Order the nodes children first, so we can produce reverse deltas
orderednodes = list(reversed(self._toposort(ancestors)))
if len(nohistory) > 0:
ui.debug(
b'repackdata: %d nodes without history\n' % len(nohistory)
)
orderednodes.extend(sorted(nohistory))
# Filter orderednodes to just the nodes we want to serialize (it
# currently also has the edge nodes' ancestors).
orderednodes = list(
filter(lambda node: node in nodes, orderednodes)
)
# Garbage collect old nodes:
if self.garbagecollect:
neworderednodes = []
for node in orderednodes:
# If the node is old and is not in the keepset, we skip it,
# and mark as garbage collected
if (filename, node) not in self.keepkeys and self.isold(
self.repo, filename, node
):
entries[node].gced = True
continue
neworderednodes.append(node)
orderednodes = neworderednodes
# Compute delta bases for nodes:
deltabases = {}
nobase = set()
referenced = set()
nodes = set(nodes)
processprogress = ui.makeprogress(
_(b"processing nodes"), unit=b'nodes', total=len(orderednodes)
)
for i, node in enumerate(orderednodes):
processprogress.update(i)
# Find delta base
# TODO: allow delta'ing against most recent descendant instead
# of immediate child
deltatuple = deltabases.get(node, None)
if deltatuple is None:
deltabase, chainlen = nullid, 0
deltabases[node] = (nullid, 0)
nobase.add(node)
else:
deltabase, chainlen = deltatuple
referenced.add(deltabase)
# Use available ancestor information to inform our delta choices
ancestorinfo = ancestors.get(node)
if ancestorinfo:
p1, p2, linknode, copyfrom = ancestorinfo
# The presence of copyfrom means we're at a point where the
# file was copied from elsewhere. So don't attempt to do any
# deltas with the other file.
if copyfrom:
p1 = nullid
if chainlen < maxchainlen:
# Record this child as the delta base for its parents.
# This may be non optimal, since the parents may have
# many children, and this will only choose the last one.
# TODO: record all children and try all deltas to find
# best
if p1 != nullid:
deltabases[p1] = (node, chainlen + 1)
if p2 != nullid:
deltabases[p2] = (node, chainlen + 1)
# experimental config: repack.chainorphansbysize
if ui.configbool(b'repack', b'chainorphansbysize'):
orphans = nobase - referenced
orderednodes = self._chainorphans(
ui, filename, orderednodes, orphans, deltabases
)
# Compute deltas and write to the pack
for i, node in enumerate(orderednodes):
deltabase, chainlen = deltabases[node]
# Compute delta
# TODO: Optimize the deltachain fetching. Since we're
# iterating over the different version of the file, we may
# be fetching the same deltachain over and over again.
if deltabase != nullid:
deltaentry = self.data.getdelta(filename, node)
delta, deltabasename, origdeltabase, meta = deltaentry
size = meta.get(constants.METAKEYSIZE)
if (
deltabasename != filename
or origdeltabase != deltabase
or size is None
):
deltabasetext = self.data.get(filename, deltabase)
original = self.data.get(filename, node)
size = len(original)
delta = mdiff.textdiff(deltabasetext, original)
else:
delta = self.data.get(filename, node)
size = len(delta)
meta = self.data.getmeta(filename, node)
# TODO: don't use the delta if it's larger than the fulltext
if constants.METAKEYSIZE not in meta:
meta[constants.METAKEYSIZE] = size
target.add(filename, node, deltabase, delta, meta)
entries[node].datarepacked = True
processprogress.complete()
count += 1
repackprogress.complete()
target.close(ledger=ledger)
def repackhistory(self, ledger, target):
ui = self.repo.ui
byfile = {}
for entry in pycompat.itervalues(ledger.entries):
if entry.historysource:
byfile.setdefault(entry.filename, {})[entry.node] = entry
progress = ui.makeprogress(
_(b"repacking history"), unit=self.unit, total=len(byfile)
)
for filename, entries in sorted(pycompat.iteritems(byfile)):
ancestors = {}
nodes = list(node for node in entries)
for node in nodes:
if node in ancestors:
continue
ancestors.update(
self.history.getancestors(filename, node, known=ancestors)
)
# Order the nodes children first
orderednodes = reversed(self._toposort(ancestors))
# Write to the pack
dontprocess = set()
for node in orderednodes:
p1, p2, linknode, copyfrom = ancestors[node]
# If the node is marked dontprocess, but it's also in the
# explicit entries set, that means the node exists both in this
# file and in another file that was copied to this file.
# Usually this happens if the file was copied to another file,
# then the copy was deleted, then reintroduced without copy
# metadata. The original add and the new add have the same hash
# since the content is identical and the parents are null.
if node in dontprocess and node not in entries:
# If copyfrom == filename, it means the copy history
# went to come other file, then came back to this one, so we
# should continue processing it.
if p1 != nullid and copyfrom != filename:
dontprocess.add(p1)
if p2 != nullid:
dontprocess.add(p2)
continue
if copyfrom:
dontprocess.add(p1)
target.add(filename, node, p1, p2, linknode, copyfrom)
if node in entries:
entries[node].historyrepacked = True
progress.increment()
progress.complete()
target.close(ledger=ledger)
def _toposort(self, ancestors):
def parentfunc(node):
p1, p2, linknode, copyfrom = ancestors[node]
parents = []
if p1 != nullid:
parents.append(p1)
if p2 != nullid:
parents.append(p2)
return parents
sortednodes = shallowutil.sortnodes(ancestors.keys(), parentfunc)
return sortednodes
class repackledger(object):
"""Storage for all the bookkeeping that happens during a repack. It contains
the list of revisions being repacked, what happened to each revision, and
which source store contained which revision originally (for later cleanup).
"""
def __init__(self):
self.entries = {}
self.sources = {}
self.created = set()
def markdataentry(self, source, filename, node):
"""Mark the given filename+node revision as having a data rev in the
given source.
"""
entry = self._getorcreateentry(filename, node)
entry.datasource = True
entries = self.sources.get(source)
if not entries:
entries = set()
self.sources[source] = entries
entries.add(entry)
def markhistoryentry(self, source, filename, node):
"""Mark the given filename+node revision as having a history rev in the
given source.
"""
entry = self._getorcreateentry(filename, node)
entry.historysource = True
entries = self.sources.get(source)
if not entries:
entries = set()
self.sources[source] = entries
entries.add(entry)
def _getorcreateentry(self, filename, node):
key = (filename, node)
value = self.entries.get(key)
if not value:
value = repackentry(filename, node)
self.entries[key] = value
return value
def addcreated(self, value):
self.created.add(value)
class repackentry(object):
"""Simple class representing a single revision entry in the repackledger.
"""
__slots__ = (
r'filename',
r'node',
r'datasource',
r'historysource',
r'datarepacked',
r'historyrepacked',
r'gced',
)
def __init__(self, filename, node):
self.filename = filename
self.node = node
# If the revision has a data entry in the source
self.datasource = False
# If the revision has a history entry in the source
self.historysource = False
# If the revision's data entry was repacked into the repack target
self.datarepacked = False
# If the revision's history entry was repacked into the repack target
self.historyrepacked = False
# If garbage collected
self.gced = False
def repacklockvfs(repo):
if util.safehasattr(repo, 'name'):
# Lock in the shared cache so repacks across multiple copies of the same
# repo are coordinated.
sharedcachepath = shallowutil.getcachepackpath(
repo, constants.FILEPACK_CATEGORY
)
return vfs.vfs(sharedcachepath)
else:
return repo.svfs